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SUSTAINABLE FIBRE FOR PAPERMAKING
THIRD-GENERATION formicofib™ TECHNOLOGY
The paper industry needs new raw material resources be-cause of the growing shortage of wood in densely popu-lated areas and increasing industrialization. Paper, board, and tissue usage is also increasing the fastest in countries with small forest resources, large populations, and extensive agriculture, such as China and India. Huge amounts of ag-ricultural residues are produced in these areas. Thanks to formicofib™ biorefining technology, this renewable and abundant biomass resource can now be processed into high-quality papermaking fibres – profitably and sustainably.
Typical non-wood raw materials with huge potential for pulping include straw, bagasse, bamboo, and reed. Like wood material, these contain cellulose, hemicelluloses, and lignin, all of which can be utilized as valuable inputs in a third-generation biorefinery.
COST-EFFECTIVE, MULTI-PRODUCT PLATFORM
formicofib™ technology produces high-quality fibre for paper, board, packaging, and hygiene products. Chempo-lis’ third-generation biorefining technology enables multiple products to be produced from agricultural residues using all the vegetable matter they contain. This is a definite plus, not only in terms of the environment, but also because of oper-ating costs and excellent profitability that it offers.
The advanced chemistry at the heart of formicofib™ technology results in selective delignification, which helps overcome the key problems faced in conventional non-wood pulping. The biosolvent and process water used are fully recovered and fewer process operations are needed compared to conventional non-wood pulping processes. As a third-generation, multi-product platform, formicofib™ is capable of generating approximately 25% higher sales rev-enues with lower investment costs and some 20% lower operation costs than in current technologies.
Technologies for the production of non-wood pulp
formicofib™ conventional soda process
Source: Comparison of Soda, Kraft, Conox, Chempolis and Freefiber: Investment and Production Costs, Prefeasibility Calculations. International Finance Corporation (2007)
Sales Revenues Investment costOperating cost
Wheat straw
BagasseReed
Bamboo
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SUSTAINABLE FIBRE FOR PAPERMAKING
HIGHLY SUSTAINABLE PROCESSING
A biorefinery based on formicofib™ technology meets the three key aspects of sustainability – environmental, economic, and so-cial – and can convert residues into a range of products. Instead of felling forests, replacing natural forests with plantations, and shipping pulp overseas, local biomass can be used for produc-ing papermaking fibre locally. Because it uses residual biomass, Chempolis’ formicofib™ technology does not have a negative impact on food production or contribute to soil exhaustion and de-forestation. Quite the opposite: it provides a source of valuable additional income and great benefits to rural areas.
formicofib™ is based on an organic biodegradable biosolvent. Full recovery of the biosolvent is integral to the technology and as a sulphur-free technology, process has no odour problems nor does it generate waste. It also requires less inputs than conven-tional non-wood pulping methods and is self-sufficient in terms of energy.
All in all, formicofib™ is an effluent-free, low-carbon technol-ogy that offers today’s most sustainable technology for producing non-wood papermaking fibre.
Many paper companies are now focusing on solutions that can help save forest resources, and Chempolis’ formicofib™ technology offers an excellent way of refining residual local non-wood biomasses into high-quality papermaking fibres and biochemicals that can also be distributed locally.”(Esa Rousu, the President and CEO of Chempolis Ltd, 2010)
“
BENEFITS OF formicofib™ technology
High quality products
Self-sufficient in terms of energy
Full recovery of biosolvent, chemicals and water
Low investment and operating costs
Effluent free
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GREAT ADVANTAGES OF formicofib™
Selective and flexible delignification of agriculturalresidues
formicofib™ technology selectively fractionates biomass, enabling the resulting process streams to be converted into high-quality fibre products, biochemicals, and ener-gy. The main components of a biorefinery based on the formicofib™ technology are:
• Selective delignification of biomass using the formicodeli™ system• Totally Chlorine Free (TCF) bleaching • Recovery of biosolvent and biochemicals through evaporation and the formicopure™ process system• formicocont™, the unique and reliable process control system that ensures a high degree of capacity utilization and provides a continuous optimization of process.
formicodeli™ Washing
Fertilizer, soil improver
Lignin to power generation or downstream refining
Wheat straw,reed etc.
Pulp
Acetic acid, Furfural
TCF-bleaching
Filtratetreatment
formicopure™Evaporation
WaterRecovered biosolvent
Water
SELECTIVE formicodeli™ SYSTEM
formicodeli™ stands for efficient and selective delignifica-tion of lignocellulosic raw material. Due to rapid impregnation of the biosolvent into the raw material cooking takes place quickly and at a low temperature. A low operating tempe-rature means lower energy costs and better brown stock qua lity. Thanks to highly selective delignification, the levels of cellulose, hemicelluloses, and lignin content in brown stock can be adjusted easily, maximizing product quality and making dewatering and bleaching easy.
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EFFICIENT BROWN STOCK WASHING
Thanks to the excellent dewatering properties of the brown stock produced, the lignin fraction and biosolvent can be separated very cost-effectively, using drum washers for example. The pure brown stock has a low lignin and tran-sition element content, which makes it an ideal raw mate-rial for TCF bleaching. Evaporation and distillation of the washing filtrates by using formicopure™ ensure that biosol-vent and process water can be fully reco vered. Besides this, the bleaching filtrate circulation is also fully closed.
EASY AND HIGH BRIGHTNESS TCF BLEACHING
The designs of formicofib™ technology and formicodeli™ system guarantee excellent brown stock bleachability. The fibre product is pure, with a low lignin and transient element content, enabling the use of highly selective and efficient to-tally chlorine-free (TCF) bleaching. As an examp le, two-stage TCF bleaching of wheat straw-based brown stock produced by formicofib™ technology can result in brightness excee-ding 85% (ISO). Using TCF-based bleaching chemicals also reduces overall bleaching costs significantly.
The use of TCF bleaching means that bleaching filtrates can be fully recovered as well. formicofib™ technology minimizes water consumption below 5 m3/ADt and gene-rates no effluents, which is outstanding compared to con-ventional non-wood pulping technologies. Bleaching filtrates can be re-used and nutrients and dissolved organic material can be used as an organic fertilizer or soil improver.
formicopure™ FINALIZES THE FULL RECOVERY OF BIOSOLVENT AND WATER
The lignin and the desired part of hemicelluloses, which dis-solve in the formicodeli™ system, are separated from the volatile biosolvent by evaporation, after which the biosol-vent is returned to delignification. The lignin can be proc-essed into an excellent solid fuel with a high dry matter content (>90%) and a net heating value of 20 MJ/kg. The separated hemicelluloses can be processed into acetic acid and furfural, which are purified in the formicopure™ sys-tem. This distillation-based system is very energy-efficient and produces high-purity biochemicals. formicopure™ also purifies process water for re-use in pulp washing. With formicopure™ the water consumption is minimized and discharges avoided.
The formicodeli™ process system offers:
Raw material flexibility
Fast and selective delignification
Low investment and operation costs
Clean fibre fraction for TCF bleaching maximizing fibre quality
The formicopure™ process system offers:
Full recovery of biosolvent and water
Higher sales revenues from the high-purity biochemicals produced
Lower operating costs due to low consumption of chemicals and water.
Low investment costs
In formicodeli™ cooking takes place rapidly
100
80
60
40
20
00 5 10 15 20
Cooking time, min
Kap
pa
num
ber
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Quality references of pulp. Typically brightness levels vary between 80-90%, depending on customer demands.
WHEAT STRAW REED BAGASSE BAMBOO
Yield, % 38-42 40-43 38-42 42-45
Fiber length, mm 0.6-0.7 0.7-1.0 0.6-0.8 1.1-1.5
Million pcs / g pulp 35 35 22 17
Bleachability Good Very good Excellent Good
Dewatering Good Very good Very good Excellent
HIGH QUALITY FIBRE
Due to its selective, optimal process conditions and design, formicofib™ produces high-quality non-wood papermaking fibre for paper and board, packaging, and hygiene products in a highly sustainable way. formicofib™-based wheat straw pulp, for example, offers excellent runnability, thanks to its good wet strength, drainability, and formation on modern paper machines. Non-wood pulp produced using this tech-nology also offers very good optical properties.
Characteristics of formicofib™ pulp
REED BASED FURNISH
WHEAT STRAWBASED FURNISH
Runnability •• •
Wet strength • ••
Formation •• ••
Wet pressing •• •
Bulk •• •
Smoothness • •
Opacity • •
Printability •• •
UPM has tested formicofib™ pulp (70% of furnish) successfully on a modern paper machine running at up to 1,300 m/min.” (UPM-Kymmene Corporation, 2009)“
HIGH-QUALITY PAPER PRODUCTS
Bleached formicofib™ straw pulp and reed pulp are par-ticularly suitable for producing printing paper and the surface layers of cartonboard, and offer similar properties to those of high-grade Kraft eucalyptus pulp. Both products, whether coated or uncoated, call for high-quality printing surfaces, and bleached straw and reed pulp can really deliver here.
Wheat straw and reed pulp produced using formicofib™ technology give printing paper good formation, excellent smoothness, opacity, and porosity, together with high sur-face and z-strength. The fine structure offered by straw and reed pulp provides the right level of density, tensile stiffness, and high bonding to other layers needed in the top layers of cartonboard. Combined with an optimized hemicelluloses content, the runnability and high wet strength of straw and reed pulp are even better than those of Kraft wood pulp.
In addition to bleached formicofib™ pulp, semi-bleached and unbleached formicofib™ grades can also be produced. Semi-bleached and unbleached reed and bamboo pulp are an excellent choice for the inner layers of cartonboard and fluting because of their high bulk and strength. Both reed and
From sustainable raw material to
HIGH QUALITY FIBRE AND PAPER PRODUCTS
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bamboo pulp, offer good drainability, and their fine, short fibre guarantees smooth surfaces for tissue products.
The high purity of bleached pulp grades produced using formicofib™ technology makes them an ideal choice for food and hygienic products.
100
95
90
85
80
75
70
65
60Opacity Brightness Gloss Printed gloss
formicofib™ reed
wood reference
Optical properties and printing quality
%
formicofib™ pulp gives very good printing properties for paper products. For instance, with the same brightness level, paper opacity and printing quality e.g. printing gloss is significantly better in comparison to wood based furnish.
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formicofib™ technology contains three key process systems: formicodel i™, formicopure™, and formicocont™, which provide selective delignification, full recovery of biosolvent and water enhanced with biochemical production, as well as rigorous and reliable process automation and control.
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“
SELECTIVITY TRANSLATES INTO HIGH PROFITABILITY
Selective delignification and the need for fewer process units translate into low investment and 20% lower operation cost. Lower operation costs base on the ability to use energy and biochemicals generated in the process in the bio refinery it-self. Moreover, generated biochemicals are valuable by-prod-ucts that increase sales revenues. Being able to utilize all the vegetable matter contained in inputs provides a solid foun-dation for 25% higher sales revenues than in conventional processes. High-quality fibre, complete chemical and water recovery, and the ability to co-produce valuable biochemicals and energy – combined with low investment costs and raw material flexibility – make formicofib™ a unique and supe-rior solution for producing non-wood papermaking fibre.
formicofib™
Typical in soda processProfitability IRR
50%
40%
30%
20%
10%
0%100 t/d 200 t/d 500 t/d 1000 t/d
Chempolis is the most feasible, its investment and production costs arethe lowest.”(IFC, 2006)
Per
cent
of I
RR
SELECTIVITY ALSO MEANS NO WASTE
Selective delignification is based on the use of a novel sul-phur-free biosolvent that can be fully recovered by evapo-ration, without the problems typically associated with the silicates present in non-wood raw materials or solubility limi-tations of cooking liquors. Following recovery, the biosolvent can be fully re-used in the process, while the dissolved lignin is used in energy generation.
As both biosolvent and process water are fully recov-ered, no waste or effluent are generated. Together with the low level of chemical input needed and the fact that the biorefinery is self-sufficient in terms of energy, formicofib™ offers excellent cost-effectiveness combined with high sus-tainability.
The most energy efficient pulping technology.” (US Department of Energy, 2008)“
Technologies for the production of non-wood pulp
SODA PROCESS formicofib™
Cooking media Aqueous sodium hydroxide Aqueous formic acid
Products Pulp Pulp, furfural, acetic acid
Concentrated spent liquor for
combustion
Dry solids content < 50%
Net heating value < 6 MJ/kg
Dry solids content ~90%
Net heating value ~20 MJ/kg
Bleaching chemicals Hypochlorite, oxygen and hydrogen peroxide in
newest mills, chlorine and hypochlorite in other
mills.
Hydrogen peroxide and other oxygen chemicals,
i.e. TCF bleaching
Recovery rate of pulping chemicals 60-80% >99%
Dewatering on paper machine Poor – restricted production speed Very good – high production speed possible
CO2 emissions ~ 2 t/tpulp 1) -
AOX emissions 2,5 t/tpulp 1)
25 mg/l 2)
-
COD emissions 70 kg/tpulp 1)
700 mg/l 2)
< 1 kg/tpulp
< 50 mg/l
Water consumption 100 m3/tpulp 1) approximately 15 m3/tpulp
1) Source: International Finance Corporation (2007). China: Technical Assistance for the Sustainable Development of the Non-wood Pulp and Paper Industry.
Environmental Assessment. Technical Report Module 7 2) Calculated from original figures of the source
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The world needs sustainable,
formicofib™ NON-WOOD FIBRE MULTI-PRODUCT LOW CARBON SOLUTION
Paper consumption is growing fastest in Asian countries. Non-wood materials are available in abundance in countries with a shortage of wood, however, and are widely used in the pulp and paper industry. The reliance on outdated technolo-gies has resulted in inferior paper quality and severe econo-mic and environmental problems, such as water pollution and CO2 emissions linked to the extensive co-combustion of coal. Burning residual material in fields generates extensive smoke and emission problems as well.
Globally, agricultural production generates more than 5 bil-lion tonnes of residual lignocellulosic biomass a year. This is more than 10 times the amount of wood used by the world’s pulp and paper industry. With the right technology, pulp and paper can be produced from residual non-wood fibre without felling forests and causing environmental pollution. And that technology is formicofib™.
formicofib™ technology offers an ideal solution for pro-ducing non-wood pulp that really delivers in terms of pro-duct quality, cost efficiency, and environmental performance. Thanks to its favourable process chemistry, formicofib™ avoids the main problems associated with other technolo-gies used and developed for non-wood raw materials.
formicofib™ is truly a third-generation biorefining techno-logy, because it is capable of producing a variety of outputs – pulp, biochemicals, and solid fuel – without compromising on energy efficiency or sustainability.
Characterizing raw materials for papermaking fibres
WOOD NON-WOOD
Integration to papermaking New mills typically stand-alone Typically integrated
Drying of pulp Necessary for transportation No drying, direct use in papermaking
Transportation of pulp Long distances accross the globe No transportation, direct use in papermaking
Mill size, ADt/a 1’000’000 100’000
Raw material availability and price Limited availability at the growing markets, spe-cialized growing and harvesting increases the price
Available at the growing markets, cheap be-cause available as agricultural residues
Typical bleaching ECF TCF
Odorous components Sulphur No-sulphur
CO2 emissions of papermaking concepts in China
Sources:• World Best Practice Energy Intensity Values for Selected Industrial Sectors, US Department of Energy 2008.• Comparison of Soda, Kraft, Conox, Chempolis and FreeFiber: Investment and Production Costs, Prefeasibility Calculations. International Finance Corpo ration (2007)
2,5
2
1,5
1
0,5
0integrated
with conventional non-wood pulp mill
integrated with formicofib™
pulp mill in South America
CO
2 em
issi
ons
t/t p
aper
Net emissions of pulpingPapermaking
Transportation of pulp
formicofib™ pulp used in paper production is superior when comparing CO2 emissions of paper mills using con-ventional non-wood pulp or even market chemical wood pulp.
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TECHNOLOGY TRANSFER
The world needs sustainable,
formicofib™ NON-WOOD FIBRE
A QUALITY OFFERING COVERING THE ENTIRE CHAIN
Chempolis’ expertise covers the entire processing chain – from biomass to pulp and other end-products – and delivers sus-tainable results at every stage of a project. Our expertise in engineering and project implementation can make a valuable cont-ribution to the success of the project – from conceptual engineering, process and plant engineering, to equipment design, supplying proprietary systems, and turnkey plant deliveries.
Supervising installation work, commissioning, and initial operations are also an integral part of Chempolis’ skills set. By relying on us as a one-stop shop technology partner, customers can rest assured that their plants will perform at their best from the very start.
“We deliver sustainable results.”
formicofib™
technology
formico®
systems
EPC
Services
Deliveries
Deliveries
Deliveries
Deliveries
• Feasibility studies• Pre-engineering work• Laboratory tests
• Paper machine trials• Training• Plant optimization
• E (engineering) management• P (procurement) management• C (commissioning)
• Complete formico® systems for biorefineries which are characterized by reliability, safety, high opera- tional efficiency and low energy consumption
• Licence for formicofib™ technology which is characterized by high raw material and energy efficiency and low water consumption
• formicocont™• formicodeli™• formicopure™
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Chempolis is a technology leader providing innovative and sustainable solutions and services for a wide variety of customers in the biomass and biorefining areas, as well as related process industries.
Headquarters and Biorefining CentreChempolis Biorefining ParkLääketehtaantie 1FI-90660 OuluFinland
Tel. +358 (0)10 387 6666Fax +358 (0)10 387 6668
Asia Pacific HeadquartersChempolis Biorefining Technology (Shanghai) Co., Ltd.Room 402-17, #2 Building, 690 Bibo RoadZhangjiang Hi-Tech ParkShanghai 201203, P.R.China
Tel. +86 21 6104 2254Fax +86 21 6104 1410
www.chempolis.com